Monitor, Touchscreen Sensing Module Thereof, and Method for Manufacturing the Touchscreen Sensing Module

1. A touchscreen sensing module, comprising: a first baseplate defining a first groove in a predetermined shape on a side thereof; a first conductive layer matching with the first groove in shape, the first conductive layer being received in the first groove; a second baseplate attached to a side of the first baseplate defining the first groove, a second groove in a predetermined shape being defined on a side away from the first baseplate; a second conductive layer matching with the second groove in shape, the second conductive layer being received in the second groove; and a supporting substrate attached to a side of the second baseplate defining the second groove, the first conductive layer and the second conductive layer being clamped between the supporting substrate and the first baseplate; and first electrode leads and second electrode leads, the first electrode leads being embedded in the first baseplate and electrically connected to the first conductive layer, the second electrode leads being embedded in the second baseplate and electrically connected to the second conductive layer; wherein the first electrode leads and the second electrode leads are both single solid lines, and wherein a first connecting portion in a strip shape is provided on the end of a first electrode lead near to the first conductive layer, the first connecting portion has a greater width than other portion of the first electrode lead, a second connecting portion in a strip shape is provided on the end of a second electrode lead near to the second conductive layer, and the second connecting portion has a greater width than other portion of the second electrode lead.

2. The touchscreen sensing module of claim 1 , wherein the first baseplate comprises a first substrate and a first matrix layer attached to the first substrate, the first groove is defined on the first matrix layer, the second baseplate comprises a second substrate and a second matrix layer attached to the second substrate, the second groove is defined on the second matrix layer.

3. The touchscreen sensing module of claim 2 , wherein a thickness of the first conductive layer is not greater than a depth of the first groove, and a thickness of the second conductive layer is not greater than a depth of the second groove.

4. The touchscreen sensing module of claim 1 , wherein the first conductive layer and the second conductive layer are both conductive grids constructed by intercrossed conductive wires, the conductive grids comprise a plurality of grid units, the conductive wires of the first conductive layer are received in the first groove, the conductive wires of the second conductive layer are received in the second groove, and a width of the conductive wires ranges from 500 nm to 5 μm.

5. The touchscreen sensing module of claim 4 , wherein material of the conductive wires is selected from the group consisting of metal, conductive polymer, grapheme, carbon nano-tube, and ITO.

6. The touchscreen sensing module of claim 5 , wherein the metal comprises one selected from the group consisting of Au, Ag, Cu, Al, Ni, Zn, and alloy of at least two thereof.

7. The touchscreen sensing module of claim 4 , wherein the grid units are rhomboid, or rectangle, or parallelogram, or curved quadrilateral, and a projection of the center of a grid unit of the second conductive layer on the first conductive layer is spaced a predetermined distance from the center of a grid unit of the first conductive layer.

8. The touchscreen sensing module of claim 7 , wherein the projection of the center of the grid unit of the second conductive layer on the first conductive layer is spaced a distance between 1/3a and √{square root over (2)}a/2 from the center of the grid unit of the first conductive layer, where “a” is the side length of the grid unit.

9. The touchscreen sensing module of claim 7 , wherein a projection on the first conductive layer of connecting lines of centers of the grid units in the same arrangement direction on the second conductive layer are misaligned with connecting lines of centers of the grid units in the same arrangement direction on the first conductive layer.

10. The touchscreen sensing module of claim 1 , wherein the first conductive layer is divided into a plurality of mutually-insulated first grid strips, the second conductive layer is divided into a plurality of mutually-insulated second grid strips, the first electrode leads comprise a plurality of leads electrically connected to the first grid strips respectively, and the second electrode leads comprise a plurality of leads electrically connected to the second grid strips respectively.

11. A touchscreen sensing module, comprising: a first baseplate defining a first groove in a predetermined shape on a side thereof; a first conductive layer matching with the first groove in shape, the first conductive layer being received in the first groove; a second baseplate attached to a side of the first baseplate defining the first groove, a second groove in a predetermined shape being defined on a side away from the first baseplate; a second conductive layer matching with the second groove in shape, the second conductive layer being received in the second groove; and a supporting substrate attached to a side of the second baseplate defining the second groove, the first conductive layer and the second conductive layer being clamped between the supporting substrate and the first baseplate; and first electrode leads and second electrode leads, the first electrode leads being embedded in the first baseplate and electrically connected to the first conductive layer, the second electrode leads being embedded in the second baseplate and electrically connected to the second conductive layer; wherein the first electrode leads and the second electrode leads are constructed by mesh-intersecting conductive wires, and a grid cycle of the first electrode leads and the second electrode leads is less than a grid cycle of the first conductive layer and the second conductive layer.

12. The touchscreen sensing module of claim 11 , wherein a first electrode switching line is provided between a first electrode lead and a first conductive layer, a second electrode switching line is provided between the second electrode lead and the second conductive layer, the first switching line and the second switching line are consecutive conductive wires, the first switching line is connected to the first conductive layer and ends of at least two conductive wires of the first electrode lead, and the second switching line is connected to the second conductive layer and ends of at least two conductive wires of the second electrode lead.

13. A monitor, comprising: a display; and a touchscreen sensing module comprising: a first baseplate defining a first groove in a predetermined shape on a side thereof; a first conductive layer matching with the first groove in shape, the first conductive layer being received in the first groove; a second baseplate attached to a side of the first baseplate defining the first groove, a second groove in a predetermined shape being defined on a side away from the first baseplate; a second conductive layer matching with the second groove in shape, the second conductive layer being received in the second groove; and a supporting substrate attached to a side of the second baseplate defining the second groove, the first conductive layer and the second conductive layer being clamped between the supporting substrate and the first baseplate; and a side away from the first conductive layer of the first baseplate being bonding with the display to make the touchscreen sensing module be attached to the display; and first electrode leads and second electrode leads, the first electrode leads being embedded in the first baseplate and electrically connected to the first conductive layer, the second electrode leads being embedded in the second baseplate and electrically connected to the second conductive layer; wherein the first electrode leads and the second electrode leads are both single solid lines, and wherein a first connecting portion in a strip shape is provided on the end of a first electrode lead near to the first conductive layer, the first connecting portion has a greater width than other portion of the first electrode lead, a second connecting portion in a strip shape is provided on the end of a second electrode lead near to the second conductive layer, and the second connecting portion has a greater width than other portion of the second electrode lead.

14. A method for manufacturing a touchscreen sensing module, comprising steps of: providing a first substrate, a second substrate, and a supporting substrate, and coating gel on a surface of the first substrate to form a first matrix layer; forming a patterned first groove on a side of the first matrix layer facing away from the first substrate by imprinting, and filling conductive material into the first groove to form a first conductive layer; attaching the second substrate to the first matrix layer, and coating gel on a side of the second substrate facing way from the first matrix layer to form a second matrix layer; forming a patterned second groove by imprinting on a side of the second matrix layer facing away from the second substrate, and filling conductive material into the second groove to form a second conductive layer; attaching the supporting substrate to a side of the second matrix layer facing away from the second substrate; embedding first electrode leads in the first baseplate and electrically connecting the first electrode leads to the first conductive layer; and embedding second electrode leads and the second electrode leads are both single solid lines, second electrode leads to the second conductive layer; wherein the first electrode leads and the second electrode leads are both single solid lines, and wherein a first connecting portion in a strip shape is provided on the end of a first electrode lead near to the first conductive layer, the first connecting portion has a greater width than other portion of the first electrode lead, a second connecting portion in a strip shape is provided on the end of a second electrode lead near to the second conductive layer, and the second connecting portion has a greater width than other portion of the second electrode lead.

15. The method for manufacturing monitor of claim 14 , wherein first electrode leads connecting to the first conductive layer are formed when filling conductive material into the first groove to form the first conductive layer, and second electrode leads connecting to the second conductive layer are formed when filling conductive material into the second groove to form the second conductive layer.